JP2000507799A - Sliding door for switchgear and control cubicle - Google Patents

Abstract

(57) [Summary] Vertically sliding door 5 for switchgear and control cubicle. The door is housed on the front side of the opening and closing device and the control cubicle, and is designed to slide on a guide 6 mounted on the height side of the opening and closing device and the control cubicle. I have.

Description

Description: TECHNICAL FIELD Sliding doors for switchgears and control cubicles Switchgears and control cubicles are included in most electrical supplies and industrial plants. The size and contents of the switchgear and the control cubicle depend on the application in question. In the simplest design, the switchgear installation has several single cubicles with incoming circuit breakers and several outgoing switch diverter cubicles to distribute power to different consumers. Would. However, large industrial plants, such as rolling mills, paper machines, nuclear power plants, etc., require more complex and more expensive switchgear and control cubicles. In this case, there is a need for a cutting cubicle, a switch diverter, a measurement cubicle, a circuit breaker cubicle, a contact cubicle, a relay protection cubicle, a controller and a control device. This means that at least for large industrial plants, the space requirements for these switchgear equipment and control cubicles can be large. Often, the operating members, monitors, etc. of the plant are also housed in the same room, hereinafter called the control room. The present invention relates to a special embodiment of a switchgear and a control cubicle door, the switchgear and the control cubicle being independent of whether the embodiment has only a switchgear and a control cubicle, or Control panels allow space requirements in the control room, whether or not they also have control panels to be significantly reduced. BACKGROUND ART, PROBLEMS In order to put the present invention in the proper context, a short description of the different types of cubicles and the standard for determining their design will be made first. The switchgear and control cubicle referred to herein have both low and high voltage designs, ie, up to approximately 36 kV for the indoor version. According to SS-IEC 298, for example, metal switchgear indoor switchgear equipment is divided into three main groups: metal clad switchgear, partitioned switchgear, and cubicles. Switchgear. In a metal-clad switchgear, the components are placed in compartments with metal partitions. In a partitioned switchgear, all of the components are located in separate compartments, in which one or more of the partitions are made of a non-metallic material. Above all, typical partitioned switchgear equipment is shown in ABB Brochure SB 84-201E, 2nd edition 1994-01. In a switchgear surrounded by a cubicle, for example, both a circuit breaker and a cable are accommodated in the same space. Therefore, personal safety is considerably less than that produced by metal clad switchgear equipment and partitioned switchgear equipment. When a classic design is applied to the doors for these switchgear equipment and control cubicles, the classic design allows the door to open the cubicle and allow access to different embedded components. A hinge is provided. One common design is for a door that covers the fully open front of a switchgear or control cubicle. This mainly means that the height of the door corresponds to the height of the opening / closing device or the control cubicle, and that the width of the door corresponds to the width of the opening / closing device or the control cubicle. Then, on the right-hand side of the door, or on the left-hand side of the door, depending on whether a right-mounted door is desired or a left-mounted door is desired. The hinge is attached. When the door is opened and turned 90 degrees outward, the free height side of the door is thus at a distance from the cubicle, which distance mainly corresponds to the width of the switchgear or control cubicle. . An important factor in this connection is that normally the switchgear door or the control cubicle door has a width of 600 or 1000 mm. Different designs with hinged doors were commonly used in connection with introducing control cubicles and switchgears that were divided into multiple compartments. The division into compartments allows the front part in the height direction of the switchgear or the control cubicle to be divided into a plurality of partial doors. As mentioned above, the hinge can be attached to the left hand height side or the right hand height side of the partial door. When the partial door is turned 90 degrees outward, the free height side of the partial door is at the same distance from the switchgear and the control cubicle as described above, even with this design. Switchgear or control cubicles divided into multiple compartments allow another way to access components for monitoring, service, etc. This is, inter alia, evident from the ABB brochure mentioned above. Here, the partial doors are provided with hinges on either the lower side or the upper side of the partial doors, which means that the partial doors can be folded outward or downward. Means When the partial doors rotate 90 degrees outward, their outwardly facing free sides are at a distance from a switchgear or control cubicle corresponding to the height of the partial door. This entails a certain degree of freedom in selecting or affecting the distance from the switchgear or the control cubicle to the free side facing the outside of the partial door. In the event of an emergency evacuation when working inside switchgear equipment or control cubicles, ie when one or more doors are open, an evacuation route through the open doors shall be established. It is very important that they are large enough. This means that the space requirements of the opening and closing device and the control room with respect to the working passages and the like with openable doors according to the state of the art are based on the doors in which the components of the opening and closing device and the control cubicle are facing outside. If it can be used without it, it means quite large. This larger space requirement has an adverse effect on the cost of the entire building. In the prefabricated high-voltage / low-voltage substation of the comprehensive international standard IEC 1330 1st edition 1995-11, the following provisions regarding the space in front of switchgear and control cubicles are given under section 5.5.8 I have. “5.5.8 Work passages The width of the work passages inside the prefabricated substation must be appropriate to perform any work or maintenance. The width of such passages should be 800 mm or more. The doors of switchgear and control equipment inside the prefabricated substation should either close in the direction of the exit or rotate so that they do not reduce the width of the passage. A door or mechanical drive in an open fixed position that does not reduce the width of the aisle to less than 500 mm. ”The importance of this in view of the cubicle width described above is that The free passages must be 600 + 500 = 1100 mm and 1000 + 500 = 1500 mm, respectively. It should be noted that the bvggnader (switchgear room in the building) exists. directions). Paragraph B86b of these instructions states: That is, the passage width in front of one switchgear installation should be 1.5 m between two 1.8 m switchgear installations. Open doors may restrict evacuation routes to 0.5 m. In view of these instructions, space savings are of the same order of magnitude as described above. In connection with plant, service and maintenance requests, there is usually a need to work in parallel with some of the control cubicles and / or switchgear equipment. With open and outside doors according to the prior art, moving from one switchgear facility or control cubicle to another is complicated, while at the same time the breakers, contacts etc. are open. Or, it becomes more difficult to monitor for closure. If the door opens or blocks, the person performing the task requested moves from one cubicle to another in the wrong direction, and the person makes the wrong connection with the wrong cubicle. There is always the risk of performing In addition, there is always the danger of damaging itself and, as is usually the case in commissioning, if you are in a hurry, getting stuck in the door. SUMMARY OF THE INVENTION, Advantages The present invention involves replacing a door according to the state of the art, which swings outward into a working path, with a vertically sliding door. This can be done by allowing the door to slide on side guides mounted on the cubicle. This means that the working path does not need to be wider than 800 mm in order to keep the standardized width. This means that, given the cubicle width described above, the working passageway can be narrower by 300 and 700 mm, respectively, than a working passageway with outwardly swinging doors, i.e. a considerably reduced space. It means that you can get the request. In addition, such a door structure eliminates the above-mentioned disadvantages of outwardly swinging doors, while at the same time providing for the service and maintenance of several switchgear facilities and control cubicles located adjacently. This means that commission time can be significantly reduced. In addition, due to the improved overview obtained thereby, the safety is increased. Description of the Preferred Embodiment The invention will be described with reference to the accompanying drawings, which show an enclosure for a switchgear unit or a control cubicle. The enclosure has a front portion and a rear portion. The enclosure mainly corresponds to the opening / closing device and the control cubicle described in the above-mentioned ABB pamphlet. In the embodiment shown, the rear section has a lower space 1 for an incoming / outgoing power cable. This space is separated from the upper part 2 by a horizontal partition wall 3. The upper part 2 in the illustrated embodiment is considered to have a circuit breaker (not shown) mounted on the partition wall 3 facing the front part 4. Further, the upper space may include a bus bar system, a measuring device, and the like. According to the invention, the front part 4 has a door structure 5, which is shown in the drawing in a lowered position. In a preferred embodiment, the door has a height that is less than or equal to half the height of the switchgear or control cubicle. At the lower part, the front part of the opening / closing device or the control cubicle has a U-shaped bent plate (not shown), and the U-shaped bent plate is located on the front side of the lower rear space 1. Cover the part. The front flat side of the U-shaped plate is intended to be located just behind the door 5 in the retracted position. The middle part of the front part has a door 5 which can be slid upward and downward by a guide 6. By integrating the door handle into the door structure, there are no protruding parts that might prevent evacuation in an emergency. In the illustrated door structure, the door comprises a recessed intermediate portion 7, a lower edge 8, and an upper edge 9, which lower edge 8 and upper edge 9 connect the door. Used to push down / up. The upper part 10 of the front part is provided with a space for relay protection equipment and other control equipment. This space is protected by an upper door 11, which may preferably be provided with a hinge at the upper part, so that the door can be folded outward / upward. It has become. Other and similar designs for door structures that slide upward and downward are within the scope of the present invention. Thus, for example, the portions of the guide where the door slides, or the edges of the door facing them, maybe both the guide and the door, are provided with a suitable sliding facilitating material such as plastic and the like. Friction between the edge and the guide may be reduced.

[Procedure of Amendment] Article 184-8, Paragraph 1 of the Patent Act [Submission date] February 24, 1998 (1998.2.24) [Correction contents]                                The scope of the claims   1. a plurality of enclosures with front parts (5, 11) that can be opened along the working path An intermediate voltage switchgear having a unit, wherein at least one of the surrounding units is provided. Characterized in that at least one has a vertically sliding front part (5). Inter-voltage switchgear.   2. The intermediate voltage switchgear according to claim 1, wherein the front portion slides vertically. (5) An intermediate voltage switchgear adapted to slide in the guide (6).   3. The intermediate voltage switchgear according to claim 1 or 2, wherein the sliding is performed. The front part (5) has a steering device (7) for facilitating vertical movement. Intermediate voltage switchgear.   4. Intermediate voltage switchgear according to claim 3, wherein the control device (7) is lower Recessed of said sliding front part (5) with an edge (8) and an upper edge (9) Intermediate switchgear having an intermediate portion (7).   5. The intermediate voltage switchgear according to any one of the preceding claims, wherein the sliding is performed. The front part (5) is less than or half the height of the enclosed unit Or an intermediate voltage switchgear having a height equal to half its height.   6. Multiple enclosures with front parts (5, 11) that can be opened along the working path A method of deploying an intermediate voltage switchgear having a unit, comprising: At least one of the units has a vertically sliding front part (5). A method for deploying an intermediate voltage switchgear, characterized in that:

Claims (1)

[Claims]   1. Smell on vertical sliding door (5) for switchgear and control cubicle The sliding door is housed in a front side of the opening / closing device and the control cubicle. And mounted on the height direction side of the opening / closing device and the control cubicle. A vertically sliding door, adapted to slide on a guide (6). A (5).   2. A vertically sliding door for the switchgear and control cubicle according to claim 1. (5) In (5), the sliding door is provided with the opening / closing device and the control cubicle. Have a height less than or equal to half the height A vertically sliding door (5), characterized by:   3. A vertically sliding door for the switchgear and control cubicle according to claim 1. A) In (5), the sliding door facilitates displacement of the door in the vertical direction. Vertically sliding door (5), characterized in that the door (5) is provided with a device (7).   4. Vertical for switchgear and control cubicle according to claims 1 and 3 Door (5) that slides in a vertical direction to facilitate displacement of said door in the vertical direction The device (7) has a lower edge (8) and an upper edge (9). A vertical slide characterized as being designed as a recessed intermediate part (7) Moving door (5).   5. A vertically sliding door for the switchgear and control cubicle according to claim 1. (5) In (5), a height direction edge of the sliding door facing the guide is a sliding door. A vertically sliding door (5), characterized in that it comprises a mobility-enhancing material.   6. A vertically sliding door for the switchgear and control cubicle according to claim 1. A) In (5), a device is mounted on a side in the height direction of the opening / closing device and the control cubicle. The guide on which the vertically slidable door slides is easy to slide. A vertically sliding door (5), characterized in that it comprises a material.   7. The switchgear and the control cubicle according to claims 1, 5 and 6 A vertically sliding door (5) for the sliding door facing the guide. The control cubicle is mounted on the height edge of the door and the height side of the control cubicle. Wherein both guides are provided with sliding facilitating material, Door (5).